Abstract
In this study, we examined the effect of potassium perchlorate (KClO4) and magnesium hydroxide (Mg(OH)2) additives on the combustion behavior of a ZrO2 +2Mg mixture to produce a fine powder of zirconium metal. The results of thermodynamic analysis and experiments imply that nearly 0.04mol of KClO4 is needed to initiate a combustion reaction in the ZrO2 +2Mg system. As the amount of KClO4 increases from 0.04 to 0.1mol, the combustion temperature increases from 1250 to 1850°C. This results in formation of fine zirconium powder with a typical particle size of less than 5µm, and with 1.4–2.2wt% residual oxygen. Subsequent reduction of particle size to 100–500nm, and oxygen content to <1.0wt% was achieved by adding Mg(OH)2. The as-prepared Zr powder was mixed with nitrocellulose and printed onto 10–100µm thin-layers to study their burning stability. The wave propagation in a thin layer was on the order of 0.35–30cm/s, which is suitable for applications requiring localized power generation.
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